Download - Senior Engineering Design 58
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Conference on Senior Engineering Design Project
You are invited to attend the fifty-eighth Conference on Senior Engineering Design Projects. The
conference will be held from 8:00 a.m. to 4:00 p.m., Tuesday, April 19 2016 at the College of
Engineering and Applied Sciences on the Parkview Campus of Western Michigan University.
The College of Engineering and Applied Sciences sponsors the conference to showcase the
work of its graduating seniors, who are required to complete a capstone project that puts into
practice what they have learned. Many of the projects are sponsored by business and
industry. The conference is free and open to the public. You are welcome to attend all or part
of the day's events. Reservations are not necessary.
High school and community college teachers are encouraged to bring students to the conference. Buses can
drop off passengers in the College Circle in front of the building and then park in lot P-2 (See map).
Parking is available in the ramps behind the College of Engineering and Applied Sciences (See: Lots P3 and
P4). There is no charge for parking for those attending the Conference.
Presentations begin on the hour and half hour. Please do not enter a room after a presentation has begun.
Session locations, times, and page number for project descriptions:
Civil and Construction Engineering D-115 8:30 a.m. to 11:30 a.m. p.6
Computer Science D-202 9:00 a.m. to 1:30 p.m. p.9
Electrical and Computer Engineering D-204 9:00 a.m. to 2:30 p.m. p.12
Engineering Design, Manufacturing, and
Management Systems
D-201 8:00 a.m. to 12:00 p.m. p.15
Industrial and Entrepreneurial Engineering &
Engineering Management
D-212 9:30 a.m. to 12:00 p.m. p.18
Mechanical and Aerospace Engineering A D-109 9:00 a.m. to 3:00 p.m. p.20
Mechanical and Aerospace Engineering B D-210 9:00 a.m. to 2:30 p.m. p.24
Chemical and Paper Engineering D-208 9:00 a.m. to 3:00 p.m. p.28
A lunch break is scheduled from 12 p.m. to 1 p.m. There is a café available on site.
For more information about the conference, call Tamara Bergman at (269) 276-3248.
Brochure available electronically at:
http://www.wmich.edu/engineer/senior-design-conference.html
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CCE Civil and Construction Engineering
CS Computer Science
ECE Electrical and Computer Engineering
EDMMS Engineering Design, Manufacturing, and Management Systems
IEE & EM Industrial and Entrepreneurial Engineering & Engineering Management
MAE Mechanical and Aerospace Engineering
ChP Chemical and Paper Engineering
TIME ROOM/DEPARTMENT TOPIC
8:00
D-201 EDMMS RAPID MOLD DEVELOPMENT
8:30
D-115 CCE
D-201 EDMMS
FOREST LAKE PRESERVE
LEADERSHIP REACTION COURSE PROPOSAL
9:00 D-115 CCE
D-208 ChP
D-202 CS
D-204/205 ECE
D-201 EDMMS
D-109 MAE A
D-210 MAE B
ZEELAND TRUSS CLAY AVE TORNADO
RECONSTRUCTION
RECYCLING OF POLYETHYLENE COATED PAPER
FAMILY INTERACTION MAP
DEVELOPMENT OF AN INTELLIGENT SURGICAL BOX-
TRAINER
DEVELOPING A DECISION SUPPORT SYSTEM TO
DETERMINE OPTIMAL SAMPLE SIZE FOR A PRODUCT
STANDARD REGISTER MACHINE DESIGN AND COST
ANALYSIS
FLOW CONTROL AND ELECTRIC ACTUATORS
9:30 D-115 CCE
D-202 CS
D-208 ChP
D-204/205 ECE
D-201 EDMMS
D-212 IEE & EM
D-109 MAE A
D-210 MAE B
35TH
STREET RESURFACING AND WIDENING
NEW ELEARNING PROGRAM SUBMISSION SYSTEM
TESTING OF NANOFIBRILLATED CELLULOSE AS A
SURFACE ADDITIVE
ROOM MONITOR
REVERSE ENGINEERING OF AN ETHMOID BONE MODEL
SCRAP PROCESSING COST ANALYSIS THROUGH
STOCHASTIC SIMULATION
FORMULA SAE PADDLE SHIFT IMPLEMENTATION
CUBESAT GROUND STATION
10:00 D-115 CCE
D-202 CS
D-208 ChP
D-204/205 ECE
D-201 EDMMS
D-212 IEE & EM
D-109 MAE A
D-210 MAE B
33RD
STREET WATER MAIN
STREETLIGHT & POWER OUTAGE MOBILE APP
RELEASE 2
MODIFYING AN OPEN WATER SYSTEM TO A CLOSED
SYSTEM
DIFFUSED JUNCTION SILICON SOLAR CELL
PROCESS IMPROVEMENT BY AUTOMATION
CAPACITY PLANNING AND OPTIMIZATION OF
PRODUCTION
BALLOON ALTITUDE CONTROL MECHANISM
OPTIMIZATION OF A SUSTAINABLE BICYCLE
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GENERATOR
10:30 D-115 CCE
D-202 CS
D-208 ChP
D-204/205 ECE
D-201 EDMMS
D-212 IEE & EM
D-109 MAE A
D-210 MAE B
BRIDGE PRESERVATION IMPLEMENTING NDT
WEB APPLICATION FRAMEWORK FOR STEM
SIMULATIONS: FLU
PAPER MACHINE SPEED VARIATIONS: CAUSES AND
SOLUTIONS
KELLOGGS’S CASE LIFT SYSTEM UPGRADE
AN EVALUATION AND OPTIMIZATION OF SERVICE
CENTERS’ ELECTRONIC DOCUMENT MANAGEMENT
SYSTEM
SPACE UTILIZATION AND FLOW ANALYSIS OF
MATERIALS IN THE STERILIZATION ROOM AND
SURGERY CART PREP AREA OF A HOSPITAL
REDESIGN OF 125 SERIES PNEUMATIC VALVE
STEAM TUNNEL FINISHER
11:00 D-115 CCE
D-202 CS
D-208 ChP
D-204/205 ECE
D-201 EDMMS
D-212 IEE & EM
D-109 MAE A
D-210 MAE B
JOHN BEERS ROAD RESURFACING PROJECT
“WMU SAND LAB WEB APPLICATION”
CLEANING PROCEDURE CONSOLIDATION
LARGE-SCALE SELF-SYNCHRONIZING CLOCK
HYBRID 3D METAL PRINTER-ROTATIONAL AXIS TABLE
DESIGN
MATERIAL HANDLING OPTIMIZATION AT STERLING
INDUSTRIES
NEOVENT (LOW-COST DEVICE TO HELP PREMATURE
NEONATES BREATHE)
IMPLEMENTATION OF MAGNETO RHEOLOGICAL (MR)
FLUID FOR VARIABLE VALVE
11:30 D-202 CS
D-208 ChP
D-204/205 ECE
D-201 EDMMS
D-212 IEE & EM
D-109 MAE A
D-210 MAE B
LOAN ANALYSIS FOR CONSUMERS CREDIT UNION
MODELING OF PRODUCT COOLING FOR BAKED AND
SNACK CRACKERS
SOLAR TRACKING AND LIGHTING DESIGN FOR A
MULTIMEDIA SCULPTURE
HUMAN-ASSISTED FLUID POWER VEHICLE
THE OPTIMIZATION OF A PAINT LINE MATERIAL
HANDLING SYSTEM
CARBON FIBER WING REDESIGN FOR UNMANNED
AIRCRAFT
A PORTABLE BIOGAS SEPARATOR AND STORING
SYSTEM
1:00 D-202 CS
D-109 MAE A
D-210 MAE B
PARLNT 2.0
VARIABLE VALVE ACTUATION “Session Closed to Public”
WIND TURBINE GENERATOR, WIND FLOW THROUGH A
NARROW CHANNEL
1:30 D-204/205 ECE
D-109 MAE A
D-210 MAE B
CHAINLESS BICYCLE ELECTRONIC CONTROL SYSTEM
NOISE AND VIBRATION REDUCTION IN A DUAL-CLUTCH
TRANSAXLE
SUNSEEKER 2016 BATTERY THERMAL DESIGN
2:00 D-208 ChP
D-204/205 ECE
STEAM CONDENSATE RECOVERY
PORTABLE, LOW-COST AMBIENT LIGHT SENSOR
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D-109 MAE A
D-210 MAE B
ROTARY BIOREACTOR
STANDARD REGISTER MACHINE DESIGN AND COST
ANALYSIS
2:30 D-208 ChP
D-109 MAE A
DESOLVENTIZER TOASTER DESIGN EVALUATION FOR
MAINTENANCE RELIABILTY
DESIGNING AN ACCESSIBLE HALL EFFECT THRUSTER
3:00 D-208 ChP NEW MIX TECHNOLOGY OPTIONS APPLIED TO TABLET
COMPRESSION FORMULATION
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THANK YOU
The College of Engineering and Applied Sciences is grateful to these sponsors that have provided or cooperated
in Senior Engineering Design Projects being presented in April 2016. If you have a project for our students or
if you would like more information, please call Tamara Bergman at (269) 276-3248.
AIM Tech Health
Amway
Berrien County Road Commission
City of Kalamazoo
Coloma High School
Consumers Energy
Eaton Corporation
GETRAG Transmissions Corporation
Goodwill Industries of Southwestern Michigan
Graphic Packaging
Humphrey Products
Industrial Firebrick
Kalsec
Kellogg Company
Metro Health Hospital
Michigan Department of Transportation
NASA Glenn Research Center
National Fluid Power Association
Parker Hannifin
Perrigo
Prein & Newhof
Schupan & Sons Inc.
Sigma Machine
Silent Falcon UAS Technologies
Sterling Industries
Summit Polymers, Inc.
Thermal Tech Engineering
thredUP Inc.
USG Otsego Paper
Unitronics
Western Michigan University ROTC
Wightman & Associates Inc.
X-L Machine Co., Inc.
Zeeland Truss and Components
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CIVIL AND CONSTRUCTION ENGINEERING
Session Chair – Decker Hains, Ph.D.
Room D-115
FOREST LAKE PRESERVE
by: Nicholas Cadwell, Kory Gainey, Zachary Gorman, and Andrew Mallory
Sponsors: Alan Smaka and Paul Schram, Wightman & Associates, Inc.
Faculty Advisor: Lieutenant Colonel Decker Hains, Ph.D.
8:30 a.m. – 8:55 a.m.
The Forest Lake Preserve project involved the development of a 120-acre parcel into a recreational sports
community in Covert Township, Van Buren County, Michigan. The recreational anchor was the design and
construction of a 17-acre lake designed specifically for water skiing, as well as the abutting Van Buren State
Trail. The site processed significant development challenges due to high water tables, presence of wetlands,
heavily wooded nature, and access constraints. Plans for both the lake construction and development layout
were completed.
ZEELAND TRUSS CLAY AVE TORNADO RECONSTRUCTION
by: Fawad Akhtar, Travis Hare, Garrett Johnson and Shaun Merrill
Sponsor: Dean DeHoog, Zeeland Truss and Components
Faculty Advisor: Upul Attanayake, Ph.D.
9:00 a.m. – 9:25 a.m.
On July 6, 2014, an EF-1 tornado destroyed the offices and manufacturing facility of Zeeland Truss &
Components on Clay Ave in Wyoming, MI. As requested by Zeeland Truss, Blown Away Engineering has
provided an alternative design for a green roof on the replacement structure minimizing runoff and increasing
sustainability. This option involved selection of a green roof design, structural analysis of the building and
foundation, evaluation of geotechnical suitability of the existing subgrade, and investigation of the new drainage
characteristics of the building. Further investigation included potential for future LEED certification and
parking lot upgrades.
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35TH
STREET RESURFACING AND WIDENING
by: Tessa Armintrout, Richard Cnossen, and Guanyi Wang
Sponsor: Michael Schwartz, Prein & Newhof
Faculty Advisor: Valerian Kwigizile, Ph.D.
9:30 a.m. – 9:55 a.m.
Roadway design engineering is an important aspect of a fully functional stretch of road. The design for the
resurfacing and widening of a three-quarter mile stretch of 35th
Street, in Galesburg, Michigan, involved many
facets. The primary issue was location topography; the degree of road-side slope required changes to existing
grade which would be made outside of the City’s right-of-way. Additionally examined were other roadway
implications including non-motorized traffic, roadway safety, and storm-water runoff.
33RD
STREET WATER MAIN
by: Carlos R. Dominguez De Marchena, Moraima I. Santos Rosario, and Jose E. Vargas Rodriguez
Sponsor: Matt Johnson, City of Kalamazoo
Faculty Advisor: Decker Hains, Ph.D.
10:00 a.m. – 10:25 a.m.
The eastside district of Kalamazoo is being fed by a single water supply (Station 25) and the objective was to
create a back-up pipe that can supply clean water from the moment of construction and for 20 years into the
future. For this a water main was constructed on 33rd
Street in order to provide a secondary source of water to
the East Side High district pressure system of Kalamazoo City. This water main was perpendicularly connected
with M-96 Avenue and East G Avenue and continues north when it turns into 32nd
street.
BRIDGE PRESERVATION IMPLEMENTING NDT
by: Jack Bowton, Cody Cantu, Travis Miller, and Minh Nguyen
Sponsor: Rich Kathrens, Michigan Department of Transportation
Faculty Advisors: Haluk Aktan, Ph.D. and Upul Attanayake, Ph.D.
10:30 a.m. – 10:55 a.m.
The Michigan Department of Transportation (MDOT) owns and maintains over 4,750 bridges throughout the
state. In order to adequately allocate financial resources, MDOT has developed an extensive preservation
program to ensure continued safety and prolonged life of the inventory of bridges. One of the essential
components of bridge preservation is visual inspection. Visual inspection is the process of visually inspecting a
bridge for any insufficiencies. The desire to allow a more quantitative approach to visual inspection has led to
the decision of using Non-destructive Testing (NDT) techniques. Our team will focus on evaluating the
performance of protective coating on steel bridge structures utilizing NDT.
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JOHN BEERS ROAD RESURFACING PROJECT
by: Benjamin Esman, Jonathan Greco, and John Tervo
Sponsor: Brian Bernt, Berrien County Road Commission
Faculty Advisor: Decker Hains, Ph.D.
11:00 a.m. – 11:25 a.m.
John Beers Road resurfacing project had an allotted $234,755 budget available. The goal was to resurface as
much road as possible and stay within the given budget amount. In resurfacing the maximum amount of road
the project must have also included a survey of the site, widening of the shoulder, proper drainage to support the
paved shoulders, and satisfactory maintenance of traffic throughout the project in ordinance of MDOT’s
standard construction specifications.
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COMPUTER SCIENCE
Session Chair – John Kapenga
Room – D-202
FAMILY INTERACTION MAP
by: Steven Christy, Kyle Infante, and Chad Peterson
Sponsor: Michael Liepman, Ph.D.; Western Michigan University
Faculty Advisor: John Kapenga, Ph.D.
9:00 a.m. – 9:25 a.m.
Family map was a project designed for psychiatrists to visually map out a family’s interaction in hopes of better
understanding of what’s causing negative behavior. Originally created with sticky notes and/or whiteboards, a
more convenient and proficient option was needed. A drag-and-drop web application was developed in Ruby
on Rails, a popular web application framework. The application offers physicians an easy to use and portable
option to create family maps for their patients.
NEW ELEARNING PROGRAM SUBMISSION SYSTEM
by: Cody Beebe, Alec Carpenter, and Joshua Klingler
Sponsor: John Kapenga, Ph.D.; Western Michigan University
Faculty Advisor: John Kapenga, Ph.D.
9:30 a.m. – 9:55 a.m.
The Computer Science department at Western does not have an effective way to have students submit
programming assignments. Current options, including ELearning’s Dropbox, email, or programs printed on
paper, put a heavy burden on graders. A module integrated with ELearning was created that can accept, run,
and even grade programs automatically. Now a teacher can create an assignment on ELearning as usual, but
instead of grading each program individually, every assignment can be graded automatically judging by what
the teacher expects. This new module will provide an effective means of submitting programming assignments
in the future.
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STREETLIGHT & POWER OUTAGE MOBILE APP RELEASE 2
by: Andrew Burch and Tyler Pease
Sponsor: Christine Shook, Consumer’s Energy
Faculty Advisor: John Kapenga, Ph.D.
10:00 a.m. – 10:25 a.m.
Having a presence in the mobile market is increasingly important. Particularly, the need for energy companies
to communicate with their customers about power outages. The lonic framework was used on the client side in
concert with Cordova, HTML5, CSS and AngularJS to create a hybrid mobile application. The upgraded server
uses Python, Flask and a SQLite database. This release includes not only new features, but also improvements
to stability, usability, and better support for Android. The application now lends itself to a more complete
customer experience, and one that can be easily maintained in the future.
WEB APPLICATION FRAMEWORK FOR STEM SIMULATIONS: FLU
by: Hassan Alshammasy, James Kwapien, Austin Smith, and Caleb Viola
Faculty Advisor: John Kapenga, Ph.D.
10:30 a.m. – 10:55 a.m.
Interest in STEM education has historically been a challenge for primary and secondary students. A modular
web application framework that supports simulations was created using Ruby on Rails, in which the students
control the input and measure the output. Statistical analysis of the simulation is available through R. The
framework allows for bi-directional feedback between instructor and student. This is illustrated with an agent
based flu simulation, which allows students to map an entire flu season and introduces STEM concepts via a
real world example.
“WMU SAND LAB WEB APPLICATION”
by: Seth Rachwitz, William Singer, and Christopher Watts
Sponsor: Sam Ramrattan, Ph.D.; Western Michigan University
Faculty advisor: John Kapenga, Ph.D.
11:00 a.m. – 11:25 a.m.
University labs that do testing for outside companies sometimes struggle to send test data a timely, professional
fashion. To supplement the current system (e-mail), a web application was designed to allow the lab to create
“tests” for any company and upload CSV data files and image containing graphs. Along with this, collaboration
tools are built in to allow company employees to discuss each test with lab technicians instead of using e-mail.
The goal of the web application is to decrease the time it takes to give companies their test results, and improve
the communications companies have with the lab.
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LOAN ANALYSIS FOR CONSUMERS CREDIT UNION
by: Aron Lawrence, Renee Shedlock, Moses Troyer, and Nate Vardell
Sponsor: Consumers Credit Union
Faculty Advisor: John Kapenga, Ph.D.
11:30 a.m. – 11:55 a.m.
To be competitive when approving loans, loan auditors must evaluate the loan quickly and accurately. A model
was developed to more efficiently approve or deny incoming loans automatically, with less input from loan
auditors. Four different methods of statistical classification were researched to analyze the incoming data, and
to find the most appropriate and reliable technique at doing so. A decision tree model was decided to be the
most helpful for Consumers Credit Union.
PARLNT 2.0
by: Kendrick Cline, Lawrence Cuneaz, Dillon Daudert, and Austin Jones
Sponsors: John Kapenga, Ph.D. and Elise de Doncker, Ph.D.; Western Michigan University
Faculty Advisors: John Kapenga, Ph.D. and Elise de Doncker, Ph.D.
1:00 p.m. – 1:25 p.m.
Parlnt 1.2 has not been updated for over a decade and is outdated, requiring multiple updates. Autoconf is used
to configure Parlnt, and is being updated to target modern environments. Parlnt lacks a functional testing suite,
which is being implemented to confirm the program runs as expected in different environments. Many legacy
systems supported by the Autoconf are binge removed to streamline the application. Updating Parlnt will make
the program more accessible for a wide array of modern environments, encouraging the program’s use in
research.
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ELECTRICAL AND COMPUTER ENGINEERING
Session Chairs – Steven M. Durbin, Ph.D. and Ralph Tanner, Ph.D.
Room D-204/205
DEVELOPMENT OF AN INTELLIGENT SURGICAL BOX-TRAINER
by: Shehab Hamadi, Emily Perez, and Joshua Snowden
Sponsor: Janos Grantner, Department of Electrical and Computer Engineering
Faculty Advisor: Janos Grantner, Ph.D.
9:00 a.m. – 9:25 a.m.
There exists a need for more “intelligent” box trainers. This could be achieved by introducing relatively cheap
sensor components and utilizing microcontrollers to measure important performance characteristics. The
following parameters were measured and recorded: the force applied to the hypothetical tissue surface, the
rotational movements of the trainee’s hands/wrists, and the time needed to complete the tasks. The results are
recorded on an Excel spreadsheet and displayed on a laptop. The new box trainer will help trainees to keep
track of their performance and surgical faculty to assess student records, in order to evaluate trainee’s
performance.
ROOM MONITOR
by: Don Rozsi, Brent Allen, and Mohammed Alzayer
Sponsor: John Kapenga, Department of Computer Science
Faculty Advisor: Ikhlas Abdel-Qader
9:30 a.m. – 9:55 a.m.
The Room Monitor is a device that monitors the temperature, humidity, and the AC wall voltage in a room.
The device sends out warning emails and text messages when the room temperature, humidity, or wall power
reaches a user-defined threshold, preventing equipment loss due to overheating or condensation.
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DIFFUSED JUNCTION SILICON SOLAR CELL
by: Andrew Borkowski Jr., Ahmad Mohammed, and Charlotte Peterson
Sponsor: Steve Durbin, Department of Electrical and Computer Engineering
Faculty Advisor: Steve Durbin, Ph.D.
10:00 a.m. – 10:25 a.m.
The Department of Electrical and Computer Engineering has a number of solar related activities. To bridge and
complement these activities, the department would like to be able to instruct undergraduate students in what is
involved in the fabrication of a silicon based solar cell. This solar cell was modeled in AutoCAD, Suprem, and
Adept to acquire the appropriate characteristics needed to meet specifications. Once modeled the solar cell was
created using spin on dopant and screen-printing technology. The creation of this solar cell aids in expanding
the knowledge and future studies of those in the electrical engineering community.
KELLOGG’S CASE LIFT SYSTEM UPGRADE
by: Anthony Bradley, Brett Thomas, and Cody Wainer
Sponsor: Kellogg Co.
Faculty Advisor: Ralph Tanner, Ph.D.
10:30 a.m. – 10:55 a.m.
A case lift system in Kellogg’s Battle Creek plant will be upgraded to be driven by a servo motor and controlled
by a programmable logic controller. This entails investigating and understanding the inner workings of the
limit switches, relays, sensors, etc. of the previous process and translating that into ladder logic to drive the
system. The system will be integrated into Kellogg’s integrated network, allowing access to remotely control
and observe the machine from the various human-machine interface displays throughout the plant. Schematics,
architectural drawings, and user manuals will be updated to reflect the changes made to the system.
LARGE-SCALE SELF-SYNCHRONIZING CLOCK
by: Rakan Alghufaily, Joseph Onyenwuzor, and Daniel Pouliot
Sponsor: Steve Durbin, Department of Electrical and Computer Engineering
Faculty Advisor: Lina Sawalha, Ph.D.
11:00 a.m. – 11:25 a.m.
The need for accurate, highly visible clocks is apparent whenever one enters an office space to find a
nonfunctional battery-operated clock. This self-synchronizing LED clock, constructed on a large scale, features
a segmented array of LED lights with digits and colons to represent hours, minutes, and seconds, to produce a
display that is easily visible from great distances. The unique feature of the design is that it uses time stamp
inputs from an Internet connection to keep the time synchronized to an accuracy of one second. The device is
useful for combining precise time measurement into an inspiring wall decoration.
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SOLAR TRACKING AND LIGHTING DESIGN FOR A MULTIMEDIA SCULPTURE
by: Alexandra C. Ferguson, Cody J. Middleton, and Chelsea L. Russell
Sponsors: Dale Quattrin, Ph.D., Ryan Ransom, Charles Luchies
Coloma High School
Faculty Advisors: Raghe Gejji, Ph.D. and Damon Miller, Ph.D.
11:30 a.m. 11:55 a.m.
A lighting system utilizing solar energy was built to illuminate a wireframe multimedia sculpture. Increased
power generation from the solar cells was achieved using a solar tracking mechanism. Color-selectable light
emitting diodes were used to provide the user with unlimited customization options. A digital control system
was designed using an Arduino microcontroller to configure the color of the lights and the positioning of the
solar panel. The sculpture will create a sense of community and sustainability among students at the school.
CHAINLESS BICYCLE ELECTRONIC CONTROL SYSTEM
by: Demeury Naranjo-Rodriquez, Fabian Luis Lopez, and Mojtaba Al Jaffar
Sponsor: Sandra Harper, Parker Hannifin Corporation
Faculty Advisor: Damon Miller, Ph.D.
1:30 p.m. – 1:55 p.m.
An electronic control system was designed to facilitate operation of a hydraulic bicycle developed by students
of the Engineering Design, Manufacturing, and Management Systems Department. The system was designed to
control the operation sequence of several hydraulic valves with minimal intervention from the rider. A custom-
made microcontroller-based control panel was built to make all system functions available to the rider in one
location. A smart display was incorporated in the design to provide feedback on the operation of the hydraulic
system and the vehicle speed. A switching power box was also developed.
PORTABLE, LOW-COST AMBIENT LIGHT SENSOR
by: Abdullah AlZaher, Lucas Everts, and Joseph Hagan
Sponsor: John Kapenga, Ph.D., Department of Computer Science
Faculty Advisor: Dean Johnson, Ph.D.
2:00 p.m. – 2:25 p.m.
Light is undoubtedly an incredibly important part of human life. Light, or lack thereof, is important in how
humans sleep. Being exposed to ambient light for many hours during different times of the day has an effect on
human health. A portable light sensor that can be used in field tests to determine if ambient lighting is healthy
for humans during different times of the day was designed. A light source is healthier if it emits more blue light
during the day and less at night. Ideally, this apparatus would utilize sensors to determine how much unhealthy
light is present.
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ENGINEERING DESIGN, MANUFACTURING, AND MANAGEMENT SYSTEMS
Session Chair – Betsy Aller, Ph.D.
Room D-201
RAPID MOLD DEVELOPMENT
by: Steven Mawu, Collin Morlock, and Tyler Psychas
Sponsor: Joe Korzilius, Industrial Firebrick
Faculty Advisors: Sam Ramrattan, Ph.D. and Pavel Ikonomov, Ph.D.
8:00 a.m. – 8:25 a.m.
Rapid mold development for metal casting using machinable ceramic tiles eliminates many laborious and costly
pattern-making steps and reduces the total time for prototype production. This technology significantly
decreases the number of processing steps in producing complex molds. The process developed uses ceramic
tile that can be precision machined using 3D solid modeling software to develop the mold cavity quickly. The
mold cavity is built tile layer by tile layer into a one-piece mold, with precisely machined cores and internal
features. The completed molds are strong and can be stored or shipped offsite to be cast with any type of alloy.
LEADERSHIP REACTION COURSE PROPOSAL
by: Andrew Wickens and Race Bedell
Sponsor: Western Michigan University ROTC
Faculty Advisors: LTC Decker Hains, Ph.D. and Betsy Aller, Ph.D.
8:30 a.m. – 8:55 a.m.
A need exists for a leadership reaction course (LRC), which will challenge participants both mentally and
physically in order to enhance their leadership abilities. Manuals for both the overall facility and individual
challenges were developed to ensure the facility is used properly and facilitates leadership development. The
course’s design limits its overall size and environmental impact through creation of interchangeable lanes and
challenges. Standardized equipment sizes coupled with variable lanes will reduce the facility’s cost and size.
The resulting design, procedure, and layout of this facility provide a foundation on which to format a proposal
for its construction.
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DEVELOPING A DECISION SUPPORT SYSTEM TO DETERMINE OPTIMAL SAMPLE SIZE FOR
A PRODUCT
by: Mark Thornton and Chris Woods
Sponsor: Jeff Kiel, Sterling Industries
Faculty Advisor: David Lyth, Ph.D.
9:00 a.m. – 9:25 a.m.
Consumers demand high quality products and services at reasonable cost. To meet these expectations, quality
engineers need to identify the sequential sampling plan that will optimize the total cost of the inspection
process. A production process was analyzed using statistical methods to determine its current level of
performance and to develop a decision support system (DSS) to simplify the inspection system design process.
This DSS uses cost to inspect and cost of failure to minimize the total quality cost of the process. A new
process was then developed from the results using control charts and determining a sample size to fit the need
of the order.
REVERSE ENGINEERING OF AN ETHMOID BONE MODEL
by: Gregory Foresi, Jordan Matthews, Kayla Webster, and Shannon Zemlick
Faculty Advisor: Mitchel Keil, Ph.D.
9:30 a.m. – 9:55 a.m.
There is a great demand for hands-on learning in the medical field, but human cadavers and accurate learning
tools are costly and not readily available. Students are thus limited when studying highly complex features like
the ethmoid bone, a small bone located centrally in the skull behind the eye sockets. A handmade model was
scanned with a white light 3D scanning device and point clouds were imported into Geomagic Design X
software for processing. The final detailed parametric model, created in SolidWorks solid-modeling software,
is fully scalable and can be converted to multiple file types to be 3D printed into a functional model. This
model will provide a valuable hands-on learning experience for students in the medical field.
PROCESS IMPROVEMENT BY AUTOMATION
by: Ariel Hamilton and Stephanie Hatfield
Sponsors: John Dillworth, Greg Root, and Doris Tipken, Goodwill Industries of Southwestern Michigan
Faculty Advisor: Jorge Rodriquez, Ph.D.
10:00 a.m. – 10:25 a.m.
Process improvements can make a significant impact on a company. At Goodwill Industries of Southwestern
Michigan (Goodwill SWMI), process improvements in the clothing sorting and hanging areas were examined.
Automation and semi automation were key features that were explored. Time studies, ergonomics tests, and
non-value added charts helped determine how to improve the processes. Proposed improvements will reduce
the error rate and lead time while improving profitability.
17
AN EVALUATION AND OPTIMIZATION OF SERVICE CENTERS’ ELECTRONIC DOCUMENT
MANAGEMENT SYSTEM
by: Brett Davis, Joshua McPartlin, Dane Meter, and Yiga Ngbogbara
Sponsors: Krisha Akerman and Darcy Musser-Mitchell, Kellogg’s
Faculty Advisor: Larry Mallak, Ph.D.
10:30 a.m. – 10:55 a.m.
Electronic document management systems are used in industry to secure, simplify, and steamline major
business operations. Kellogg Company’s Global Business Services centers wanted to improve the quality of
their desktop procedures for accounts payable and document imaging operations. Through the use of
flowcharting, format reconstruction, and simplification techniques, the desktop procedures have been optimized
to improve productivity, to simplify the learning process for new users, and to provide a more intuitive user
interface for employees.
HYBRID 3D METAL PRINTER – ROTATIONAL AXIS TABLE DESIGN
by: Joshua Jones, Jeff Rudel, and Alexander Updegraff
Faculty Advisor: Pavel Ikonomov, Ph.D.
11:00 a.m. – 11:25 a.m.
When producing a part, Western Michigan University’s hybrid 3D metal printer is limited to three linear axes.
For the machine to reach a much higher potential in part capability, a fourth and fifth axis rotational table was
designed and manufactured. Using SolidWorks, end mills, lathes, and CNC mills, a design became reality to
produce 5-axis components. With 5-axis capability, the hybrid 3D metal printer will be able to produce more
complex designs that require both linear and rotational programs.
HUMAN-ASSISTED FLUID POWER VEHICLE
by: Andrew Bonter, Cameron Brown, Aaron Huntoon, and Austin Vojcek
Sponsor: Parker Hannifin and the National Fluid Power Association
Faculty Advisors: Alamgir Choudhury, Ph.D. and Jorge Rodriguez, Ph.D.
11:30 a.m. – 11:55 a.m.
The effect of emissions on the environment has created a need for clean alternative power driven systems. The
Chainless Challenge competition gives students the opportunity to design, build, and test a human-assisted fluid
power vehicle. An upright bicycle frame was designed to accommodate a hydraulic system used for power
transmission to operate the vehicle. Initial designs were evaluated for performance and efficiency, and to
determine the optimal system configuration. Modeling and simulation software were used for frame/mounting
design and analysis. The final design was fabricated, and the complete system was tested post-production. The
hydraulically powered vehicle designed to compete in the Chainless Challenge meets all criteria and can be
used as a concept for future alternative power vehicles.
18
INDUSTRIAL AND ENTREPRENEURIAL ENGINEERING & ENGINEERING MANAGEMENT
Session Chair – Azim Houshyar, Ph.D.
Room D-212
SCRAP PROCESSING COST ANALYSIS THROUGH STOCHASTIC SIMULATION
by: Sinan Kapucu, Love Kumar, and John Lewkowicz
Sponsor: Schupan & Sons Incorporated
Faculty Advisors: Azim Houshyar, Ph.D. and Bob White, Ph.D.
9:30 a.m. – 9:55 a.m.
In the industrial scrap industry, it is difficult to determine the value of recycling contracts due to changing
commodity pricing and processing times. Several recycling contracts were analyzed to identify the cost
structure of contracts. Time studies were conducted to determine the processing times of various commodities.
Monte Carlo simulation was performed to determine the value and distribution of earnings for contracts.
Changes to the process used to develop pricing were proposed.
CAPACITY PLANNING AND OPTIMIZATION OF PRODUCTION
by: Michael Alvis, Anthony Pripusich, Matt Ryan, and Mohammed Tashkandi
Sponsor: Chris Orlowski, General Manager of X-L Machine Company Inc.
Faculty Advisors: Lee Wells, Ph.D. and Azim Houshyar, Ph.D.
10:00 a.m. – 10:25 a.m.
A local machining company was uncertain of their machines’ annual capacity. With a goal of developing and
improving processes at the machine shop, time studies, work design, line balancing, ergonomic analysis, and
ProModel were used to develop solutions. Studies were performed on a production area that runs six different
part numbers to determine the proper capacity planning as well as create an overall optimized production area.
SPACE UTILIZATION AND FLOW ANALYSIS OF MATERIALS IN THE STERILIZATION ROOM
AND SURGERY CART PREP AREA OF A HOSPITAL
by: Ryan Harper, Phil Roth, Mustafa Tashkandi, and Matthew Weller
Sponsor: Kevin Pitcher, Metro Health Hospital
Advisor: Tycho Fredericks, Ph.D.
10:30 a.m. – 10:55 a.m.
The hospital was having material handling issues in their Sterilization Room and Surgery Cart Prep area. With
an increasing number of surgeries over the years, the material handling process had not been re-evaluated for
the better method. With that in mind, the primary objectives for the project were to decrease the workload per
case cart, increase the throughput, and reduce factors affecting the nosocomial infection rate. Root cause
analysis, process flow charts, simulation, and facility design (SLP) were used to evaluate and improve the
process of material handling in the Sterilization Room and Surgery Cart Prep area.
19
MATERIAL HANDLING OPTIMIZATION AT STERLING INDUSTRIES
by: Erik Humes, Eugene Manin, and Jason Stryjewski
Sponsor: Jeff Kiel, Sterling Industries
Advisors: Azim Houshyar, Ph.D. and Bob White, Ph.D.
11:00 a.m. – 11:25 a.m.
The material handling system at a local manufacturing plant was studied to improve efficiency, and an
expansion plan was developed to accommodate company growth. Time studies, Pareto analysis, facility layout,
and simulation modeling were used to analyze and improve the current system. The proposed expansion plan
reduces cost and expands the capacity of the material handling system.
THE OPTIMIZATION OF A PAINT LINE MATERIAL HANDLING SYSTEM
by: Matthew Bracey, Ryan Fendley, Ryan Mabie, and Abdulaziz Saadawi
Sponsor: Kal Kalkowski, Landscape Forms, Inc.
Advisor: David Meade, Ph.D.
11:30 a.m. – 11:55 a.m.
The organization and sequencing of material before, during, and after painting can have a significant impact on
the work-in-process, line density, cycle time, and throughput of finished product in a manufacturing facility.
An analysis of current methods was conducted in order to document the current state process using time-studies,
direct observations, and operator interviews. Process charts were used to map the flow of material before,
during, and after the paint line. Production scheduling and staging techniques were used to improve flow of
material. The new material handling system will decrease the lead time for finished products, as well as non-
value added labor.
20
MECHANICAL AND AEROSPACE ENGINEERING A
Session Chair – Bade Shrestha, Ph.D. and Muralidhar Ghantasala, Ph.D.
Room D-109
STANDARD REGISTER MACHINE DESIGN AND COST ANALYSIS
by: Jeromy Dobbin, and Reed Isenhart
Sponsor: Eric Pantelleria, Summit Polymers, Inc.
Faculty Advisor: Daniel Kujawski, Ph.D.
9:00 p.m. – 9:25 p.m.
A new standard design was created for equipment assembling automobile register vanes. The goal was to try to
eliminate a slide out plate completely and to reduce the cost of an overall machine. Four alternative designs
were developed in Solidworks, parametric solid modeling software. These designs had a total cost rundown in
order to deem if the new design(s) are reducing the machine’s price. The designs are used as a prototype for the
standard design for register vane assembly machines.
FORMULA SAE PADDLE SHIFT IMPLEMENTATION
by: Nick Frank, Ateet Shah, and Chad Werner
Sponsors: Patrycja Charubin, Unitronics and Tom Verbeek, Humphrey Products
Faculty Advisor: Jennifer Hudson
9:30 a.m. – 9:55 a.m.
FSAE vehicles of previous years offered a mechanical push-pull shifting lever, requiring the driver to remove
their right hand from the steering wheel to perform a shift. This manual system resulted in increased shift times
and decreased vehicle control. The implemented pneumatic system is responsible for shifting operation and
receives driver input through the use of paddle switches located on the rear of the steering wheel. A no-lift
shifting protocol negates the need for the driver to lift their foot from the accelerator pedal to perform an
upshift, increasing vehicle acceleration while decreasing shift times. Extensive research, design and testing
proved the system to be both safe and reliable.
21
BALLOON ALTITUDE CONTROL MECHANISM
by: Cameron Carson, Muqeet Farhad, Syed Hamza Mehdi, and Timothy Jon-Alan Taylor
Faculty Advisor: Kristina Lemmer
10:00 a.m. – 10:25 a.m.
Obtaining atmospheric data can become quite an expensive task. Generally, latex balloons are launched and
will eventually burst at a maximum altitude. A constant altitude balloon device to level out at a desired altitude
for a set period of time was built. SolidWorks and numerous other software package were used to design and
test different mechanisms. A solenoid valve was programmed to halt the flow of gas into the balloon after the
desired buoyancy level was achieved. The device can now be effectively used to gather atmospheric data or
obtain imagery from a high altitude.
REDESIGN OF 125 SERIES PNEUMATIC VALVE
by: Jordan Kananen, and James Thornton
Sponsors: Todd Bordewyk and Steve Mohney, Humphrey Products
Faculty Advisor: Sam Ramrattan, Ph.D.
10:30 a.m. – 10:55 a.m.
The purpose of this project is to replace the current manufacturing method for the 125 series pneumatic valve
implemented by Humphrey products with a die casting process which would allow for internal orifice
improvements. The newly designed orifice would allow for improved air flow rate through the valve. The
current design is limited to a round orifice due to the current machining process and will be redesigned to a
kidney shaped orifice in the new design in order to allow for an increase in air flow through the valve. This
process will also save Humphrey products up to 20% in yearly production costs.
NEOVENT (LOW-COST DEVICE TO HELP PREMATURE NEONATES BREATHE)
by: Nick Habben, and Hoa Le
Sponsors: Jim VanWeelden, Sigma Machine and Stephen John, AIM Tech Health
Faculty Advisor: Peter Gustafson, Ph.D.
11:00 a.m. – 11:25 a.m.
Bubble Continuous Positive Airway Pressure (Bubble CPAP) technology is widely used around the world for
premature neonates with mild to moderate respiratory distress. However, it is inadequate for infants in greater
respiratory distress. Dual Positive Airway Pressure (Biphasic PAP or NIPPV) is a treatment that helps stabilize
the alveoli of the infants and thus improves outcomes in more severe cases. NeoVent is a low cost bubble
Biphasic PAP as well as bubble NIPPV intended for use in low resource settings. The NeoVent design was
refined for ease of use, reliability, and low cost manufacturing in preparation for clinical trials.
22
CARBON FIBER WING REDESIGN FOR UNMANNED AIRCRAFT
by: Kurtis Brushaber, Ethan Cummings, and Timothy Myer
Faculty Advisor: Peter Gustafson, Ph.D.
11:30 a.m. – 11:55 a.m.
Current Unmanned Aircraft Vehicles have limited range. By constructing a new wing with an increased aspect
ratio, an increase in the vehicle’s range is possible. Using mathematical software, wing designs are simulated to
model flight performance. Analysis was completed to improve the range and endurance of the aircraft.
Lightweight 12k carbon fiber was used to offer a high structural strength to weight ratio. Structure testing was
completed to ensure proper safety factors are met. The newly designed wing has the capability to be installed
on existing aircraft, increasing its versatility.
Session Closed to Public
VARIABLE VALVE ACTUATION
by: Andrew Fallon, Parker Glass, Eric Goeckel, and Alexander Horn
Sponsors: Eric Yankovic, Dr. James E. McCarthy, Jr., Eaton
Faculty Advisor: Rick Meyer, Ph.D.
1:00 p.m. – 1:25 p.m.
Session Closed to Public
Investigate various forms of OBD on VVA systems.
NOISE AND VIBRATION REDUCTION IN A DUAL-CLUTCH TRANSAXLE
by: Ken Andrews, Coby Clark, and Kyle Kadlec
Sponsor: Neil Jackson, GETRAG Transmissions Corporation
Faculty Advisor: Rick Meyer, Ph.D.
1:30 p.m. – 1:55 p.m.
Dual-Clutch transmissions are prone to an undesired noise, termed “grattle”, which originates from vibrational
excitation of the large spinning masses outside the load path of the driven gear. It is proposed that by inducing
drag on the unloaded, rotating masses the vibrations can be damped and grattle traces can be eliminated. As a
proof of concept, a “Drag on Demand” feature that utilized an alternator was designed, prototyped and tested.
This feature is able to induce drag as well as to conserve the lost energy as electric energy for use elsewhere in
vehicle.
23
ROTARY BIOREACTOR
by: Kenneth Sage, and Austin Trusty
Faculty Advisor: William W. Liou
2:00 p.m. – 2:25 p.m.
Cell testing is required to properly create any type of modern medicine. There are different types of devices
that can be used to grow cells for testing; petri dish, suspension, and rotational growth. The three different
types of growth were tested against each other to determine which device grew the best representation of human
cells. A three dimensional modeling software was utilized to create a customized rotary bioreactor that fit the
self-made constraints. There was a desire for the most compact and lightweight rotary device that surpassed the
capabilities of the two controls.
DESIGNING AN ACCESSIBLE HALL EFFECT THRUSTER
by: Matthew Baird,Nagual Simmons, Joel Thompson
Sponsor: Kristina Lemmer, Ph.D.
Faculty Advisor: Kristina Lemmer, Ph.D.
2:30 p.m. – 2:55 p.m.
A Hall Effect thruster (HET) is a relatively simple but expensive type of electric propulsion that is difficult to
design. Normally, it is outside the research capabilities of university students. Using a small number of
components to produce an electric field, the HET accelerates xenon ions to extremely high velocities to provide
thrust. The design goal is to model using COMSOL software, build, and test a small HET that is accessible to
any university with standard resources. It is with this thruster that future HET research will be performed thus
opening the field of study to many more researchers.
24
MECHANICAL AND AEROSPACE ENGINEERING B
Session Chair – Rameshwar Sharma Ph.D. and Tianshu Liu, Ph.D.
Room D-210
FLOW CONTROL AND ELECTRIC ACTUATORS
by: Zachary Berning, Thomas Blount, and Devin Leach
Sponsor: Bill Widman, Thermal Tech Engineering
Faculty Advisor: Christopher Cho, Ph.D.
9:00 a.m. – 9:25 a.m.
Control valves are an important asset to nearly all plants. They can be used to control the flow through a pipe to
a certain pressure or flow rate. Many applications may require certain pressures or flow rates to keep the fluid
in liquid or gaseous form, satisfy process requirements, or various other reasons, including safety. A piping
skid is created to test the repeatability, accuracy, and response time of an electric actuator versus the traditional
pneumatic actuator. The results will yield the feasibility of utilizing differential pressure transmitters to regulate
flow, and reduce the need for compressed air in plants.
CUBESAT GROUND STATION
by: Tyler Baines and Anthony Murawski
Faculty Advisor: Jennifer Hudson, Ph.D.
9:30 a.m. – 9:55 a.m.
Every satellite, no matter the mission, needs a means of communication with the ground. A ground station that
sends and receives data, all while tracking the satellite as it crosses overhead, has been designed. The ground
station has two main systems that allow the station to work: the rotating antenna system, and the computer
system. The computer system is designed to control the transmission, reception and rotation of the antenna
system. The rotation of the antenna system is controlled using DC electric motors. The satellite tracking will
be done using orbital simulation software in the computer system once launch details are known.
25
OPTIMIZATION OF A SUSTAINABLE BICYCLE GENERATOR
by: Erika Fojtik, and Kelsey Pitschel
Sponsor: Harold Glasser, Ph.D., WMU Office of Sustainability
Faculty Advisor: Damon Miller, Ph.D.
10:00 a.m. – 10:25 a.m.
Human powered energy is an underutilized form of renewable energy that is able to combat small-scale
dependencies on natural gas and coal. This project focuses on optimizing overall power output of a cost
effective bike generator for home and office applications. Benefits include promoting wellbeing through
exercise during the winter months, low life cycle and environmental impacts, a modular system that is portable
and replicable, and a solution for remote energy needs via portable batteries. The generator can act as an add-
on to stationary bicycles with easy set-up and teardown.
STEAM TUNNEL FINISHER
by: Huy Bui, Heisheung Cheng, and Adam DeMeyere
Sponsor: John Voris, thredUP Inc.
Faculty Advisor: Judah Ari-Gur, Ph.D.
10:30 a.m. – 10:55 a.m.
Wrinkled clothing is common in industries that distribute clothing in packaged boxes. Current processing
methods of minimizing the folds and creases are time consuming where each piece of clothing is manually
treated with an iron press or steamer, which is inefficient and cannot be produced in mass quantities. A
machine was designed to automate and create a more efficient workflow cycle. By loading garments onto a
conveyer system through an enclosed chamber, sections of the chamber treat that fabric by exposing it to
saturated steam, which relaxes the fibers and makes it more formable. A vertical circulating airflow then allows
the garment to straighten out as well as dry in the process. This machine will treat clothing and remove
wrinkles on an industrial scale.
IMPLEMENTATION OF MAGNETO RHEOLOGICAL (MR) FLUID FOR VARIABLE VALVE
by: Christopher Clarence Arnold, Imani G Nasari, and Garrett T Piers
Sponsor: Mark Van Windergen and James E McCarthy, Ph.D., Eaton Corporation
Faculty Advisor: Rich Meyer, Ph.D.
11:00 a.m. – 11:25 a.m.
Magneto-Rheological (MR) fluid is a type of smart fluid in a carrier fluid, usually a type of oil. When subjected
to a magnetic field, the fluid greatly increases its viscosity, to the point of becoming a viscoelastic solid. This
project will demonstrate possible use for MR fluid in a variable valve actuation (VVA) valvetrain system.
26
A PORTABLE BIOGAS SEPARATOR AND STORING SYSTEM
by: Mitchell Mckenna
Faculty Advisor: Bade Shrestha, Ph.D.
11:30 a.m. – 11:55 a.m.
As landfills and composters decompose organic waste, they create biogas. This biogas is mainly carbon dioxide
and methane, (methane is a major constituent of natural gas). The proposed system design captures this waste
gas, and separates out the methane. The stored methane is then used as a fuel source for cooking, heating or
running engines. The system has been designed to allow a single person to travel rural areas and collect biogas
from small, local composters, so that it can be used elsewhere, creating a new market with a side effect of
keeping methane, a potent greenhouse gas, out of the atmosphere.
WIND TURBINE GENERATOR, WIND FLOW THROUGH A NARROW CHANNEL
by: Tyler Blake, Mercy Mutuku, and Thanaselan Selvarajoo
Sponsor: Daniel M. Mutuku, Consumers Energy
Faculty Advisor: William Liou, Ph.D.
1:00 p.m. – 1:25 p.m.
The adverse impacts on the environment from fossil fuels have shifted the global focus towards renewable
energy sources. A model was built to show the benefit of placing a wind turbine in narrow channels.
Additionally, a Computational Fluid Dynamics analysis provided wind flow patterns that enabled harnessing of
wind energy with the placement of wind turbines in a tunnel. The decreased area in the tunnel increased the
kinetic energy of the air, which was then harnessed by the turbines. The research provided can by utilized in
existing buildings providing and efficient and cost effective solution to save on energy costs.
SUNSEEKER 2016 BATTERY THERMAL DESIGN
by: Cameron Knight and Denis Kimuhu Maina
Faculty Advisor: Mitch Keil, Ph.D.
1:30 p.m. – 1:55 p.m.
The 2016 Sunseeker solar vehicle will feature a battery pack composed of 420 Li-ion 18650 batteries in order to
store the energy collected by the photovoltaic array. Given the sensitivity to heat of the lithium batteries, a
robust heat dissipation system is required to ensure safety and reliability of the vehicle. A 3-D model was
designed via Siemens NX and simulated in Autodesk CFD Simulation. The designed system will be a staple
feature during the upcoming American Solar Challenge in which the vehicle will compete.
27
STANDARD REGISTER MACHINE DESIGN AND COST ANALYSIS
by: Jeromy Dobbin, and Reed Isenhart
Sponsor: Eric Pantelleria, Summit Polymers, Inc.
Faculty Advisor: Daniel Kujawski, Ph.D.
2:00 p.m. – 2:25 p.m.
A new standard design was created for equipment assembling automobile register vanes. The goal was to try to
eliminate a slide out plate completely and to reduce the cost of an overall machine. Four alternative designs
were developed in Solidworks, parametric solid modeling software. These designs had a total cost rundown in
order to deem if the new design(s) are reducing the machine’s price. The designs are used as a prototype for the
standard design for register vane assembly machines.
28
CHEMICAL AND PAPER ENGINEERING
Session Chair – Andrew Kline, Ph.D.
Room D-208
RECYCLING OF POLYETHYLENE COATED PAPER
by: Gina Tallent
Faculty Advisor: Alexandra Pekarovicova, Ph.D.
9:00 a.m. – 9:25 a.m.
Polyethylene coated paper provides an impermeable barrier that is commonly used in consumer packaging.
Since polyethylene is not a biodegradable compound, these paper products are unable to decompose in landfills.
In an attempt to separate the polyethylene from the paper, samples were studied and repulped in different
solutions. These solutions contained different concentrations of water, sodium hydroxide, toluene,
trichloroethane, cellulose or xylanase. The percent weight of polyethylene was calculated to determine how
well the polyethylene separated from the paper. The separation of the polyethylene from the paper would
decrease the impact this type of packaging currently has on the environment.
TESTING OF NANOFIBRILLATED CELLULOSE AS A SURFACE ADDITIVE
by: Derek Kester
Faculty Advisor: Margaret Joyce, Ph.D.
9:30 a.m. – 9:55 a.m.
Nanofibrillated Cellulose (NFC) is of growing interest in the field of paper technology. A solution of NFC and
starch was applied as a surface additive to the wet end of a paper machine. The treated paper was then tested
for tensile, tear, smoothness, and porosity following TAPPI standards and conditions. The results were
compared to various ratios of NFC to Starch in the applied solution. This work shows possible benefits of using
NFC as a surface additive in terms of strength and other property increases while using small amounts of NFC.
MODIFYING AN OPEN WATER SYSTEM TO A CLOSED SYSTEM
by: Katie Gaviglio, Stephen Miller, and Daniel Schillinger
Sponsors: Mike Lahti, and Frank Knowles; USG Otsego Paper, Inc.
Faculty Advisor: Andrew Kline, Ph.D.
10:00 a.m. – 10:25 a.m.
In paper production it is common for the process to yield a high volume of water effluent. With additional
water treatment, it is possible to recycle water back into the papermaking process to reduce the amount of fresh
water intake needed and water effluent being discharged to the Kalamazoo River. This effectively turns an
open system into a closed system to proactively improve the paper mill’s environmental sustainability.
29
PAPER MACHINE SPEED VARIATIONS: CAUSES AND SOLUTIONS
by: Darven Raaj Chan, Brendan M. Galloway, and Danielle C. Valdivia
Sponsors: Lindsay Fisher, and Forest Adams; Graphic Packaging International Inc.
Faculty Advisor: Andrew Kline, Ph.D.
10:30 a.m. – 10:55 a.m.
Paper machines are very complicated and demanding pieces of equipment, needing continuous maintenance and
troubleshooting to solve issues affecting the final product. Recently, a local paper machine that produces 100%
recycled paperboard, discovered speed variations throughout production which could be caused by any number
of factors including stock freeness, stock consistency, furnish, caliper, coat weight, steam loading, and steam
availability. Once the factors were determined, options were explored to solve the issues and an optimum cost
solution to prevent the speed variations was developed and analyzed economically.
CLEANING PROCEDURE CONSOLIDATION
by: C. Kudary, and K. Murray
Sponsor: Bret Nordland, Amway
Faculty Advisor: Andrew Kline, Ph.D.
11:00 a.m. – 11:25 a.m.
Current production of oral care products are being moved from the Pressure Packaging Plant to Cosmetics
Manufacturing. Both facilities are located at the headquarters in Ada, Michigan. The relocation of the oral care
products is driven by opportunities to optimize costs in each plant. To achieve this, cleaning processes were
developed by adapting current process in each plant to accommodate the additional products in Cosmetics. This
was accomplished by grouping the products into new and previously developed product families, and then
designing cleaning procedures in order to maintain an effective level of cleanliness and quality.
MODELING OF PRODUCT COOLING FOR BAKED AND SNACK CRACKERS
by: Joseph Clayton, Jenna Hagenloch, Anusha Rabindranath, and Brian Stygar
Sponsors: Jim Molchan, Adam Gardebrecht, and Adrian Harrell; The Kellogg Company
Faculty Advisor: Andrew Kline, Ph.D.
11:30 a.m. – 11:55 a.m.
The cooling of snack crackers, after the baking process, is an important step prior to packaging. A model was
developed for cooling the crackers. The model allows for the adjustment of multiple operating conditions, such
as temperature, depth of the crackers, and the speed of the line. The completed model provides the user with
the ability to predict cooling requirements and to validate pre-existing equipment operating conditions. The
model will aid the design of new equipment as well as modifications to improve existing installations to operate
within the desired specifications for each process.
30
STEAM CONDENSATE RECOVERY
by: Marnie Fettig, Tom Green, and Ha Phan
Sponsors: Jason Buero and Dave Gordon; Kalsec
Faculty Advisor: Andrew Kline, Ph.D.
2:00 p.m. – 2:25 p.m.
Recovery of steam condensate in a boiler system in essential for many industries to reduce operation costs.
Water hardness and pH are common issues that limit the amount of steam condensate that is recoverable. A
detailed analysis of potential sources of contamination was carried out for the goal of recovering more steam
condensate. Moreover, alternative treatment methods for water hardness and pH were taken into consideration.
The final analysis provided several available options to reduce the hardness of the steam condensate, which
resulted in a higher recovery percentage.
DESOLVENTIZER TOASTER DESIGN EVALUATION FOR MAINTENANCE RELIABILITY
by: Stephanie Kilbourn, Danielle Smolinski, and Seth Waits
Faculty Advisor: Kalyana Pingali, Ph.D.
2:30 p.m. – 2:55 p.m.
Organic solvents are utilized in an extraction process that removes the desired products from raw plant
materials. Following extraction, the Desolventizer Toaster (DT) reclaims the remaining solvent to produce a
dry spent material for transit. Due to high maintenance costs and downtime associated with this system,
alternative solutions will be evaluated to ensure a more reliable and efficient drying system.
NEW MIX TECHNOLOGY OPTIONS APPLIED TO TABLET COMPRESSION FORMULATION
by: Bryce Bodtke, Raymond Browder, Cameron Brutsche, and Demetri Edwards
Sponsor: Perrigo
Faculty Advisor: Kalyana Pingali
3:00 p.m. – 3:25 p.m.
Every day, thousands of generic and prescription medications are utilized for various causes. With the use of
different mix technologies, these tablets are formulated, compressed, and coated for final use. Through a
planned restructuring of current mix technologies, the old technology will be replaced as preventative
maintenance. This restructuring not only removes older technology currently in place, but will maintain the
quality of the final product, while utilizing the most cost effective process. The completed model will allow for
improved allocation of plant resources.
31
The College of Engineering and Applied Sciences offers a wide variety of programs:
Civil and Construction Engineering (269) 276-3210
Civil Engineering
Construction Engineering
Computer Science (269) 276-3101
Computer Science - Theory and Analysis
Computer Science - General option
Electrical and Computer Engineering (269) 276-3150
Computer Engineering
Electrical Engineering
Industrial and Entrepreneurial Engineering & Engineering Management (269) 276-3350
Industrial and Entrepreneurial Engineering
Engineering Design, Manufacturing, & Management Systems (269) 276-3554
Engineering Design Technology
Engineering Management Technology
Manufacturing Engineering Technology
Mechanical and Aerospace Engineering (269) 276-3420
Aerospace Engineering
Mechanical Engineering
Chemical and Paper Engineering (269) 276-3500
Chemical Engineering
Paper Engineering
Graphic and Printing Science
College of Engineering and Applied Sciences Advising Office (269) 276-3270
The Master of Science in Engineering is offered in chemical, computer, electrical, mechanical, and industrial
engineering. The Master of Science is offered in chemical engineering, computer science, construction
engineering, engineering management, manufacturing engineering, and paper and printing science. The Ph.D. is
offered in chemical engineering, computer science, electrical and computer engineering, industrial engineering,
mechanical engineering, and paper and printing science.
32
Information about the College of Engineering and Applied Sciences at
Western Michigan University
CEAS Mission
To educate our learning community for life-long excellence in responsible professional leadership. To increase
knowledge through collaborative discovery, integration, application, and teaching. To serve as a resource and partner
to our constituents. To prepare job-ready graduates for the global market.
CEAS Vision
A scholarly community dedicated to excellence through student-centered education and research emphasizing
professional practices in engineering and applied sciences.
CEAS Four Cornerstones
Engagement: Produce job- ready graduates with the ability to grow in their profession and who are lifelong
learners
Innovation: Move the profession and society forward by providing engineers, scientists, and technologists with
new capabilities
Leadership: To graduate engineers, technologists, and applied scientists who are and will continue to be leaders in
their profession and community
Globalization: Our graduates must be prepared to work in a global engineering and applied sciences industry
CEAS Administration
Dean of Engineering: Dr. Houssam Toutanji
Chair of Civil and Construction Engineering: Dr. Osama Abudayyeh
Chair of Computer Science: Dr. Steven Carr
Chair of Electrical and Computer Engineering: Dr. Steve Durbin
Chair of Engineering Design, Manufacturing and Management Systems: Dr. Steve Butt
Chair of Industrial and Entrepreneurial Engineering and Engineering Management: Dr. Steve Butt
Interim Chair of Mechanical and Aerospace Engineering: Dr. Juda Ari-Gur
Interim Chair of Chemical and Paper Engineering: Dr. William Rantz
CEAS Contact Information
CEAS Advising Office: (269) 276-3270
CEAS Dean’s Office: (269) 276-3253
CEAS Student Outreach and Recruitment Coordinator: Scot Conant – (269) 276-3272
CEAS Website: www.wmich.edu/engineer